Rail holding structure of rail terminal

ABSTRACT

A rail holding structure of rail terminal includes a case body and a grounding member received in the case body. Two lateral sides of the grounding member are connected in the case body for holding a preset grounding rail. The case body is formed with two lower sections respectively corresponding to two sides of the grounding member. A foot section extends from at least one of the two lower sections. A first connection side and a second connection side are disposed on two lateral sides of the foot section. The first and second connection sides are connected with an outer sidewall of the lower section to form a socket with an open top side. A tool can be extended into the socket to pull and extend the foot section. Via the lower section, the grounding member is driven to detach from the grounding rail or hold the grounding rail.

BACKGROUND OF THE INVENTION 1. Field of the Invention

The present invention relates generally to an improved rail holding structure of a rail terminal, and more particularly to a rail holding structure, which has better structural strength and can be more stably operated.

2. Description of the Related Art

A conventional terminal device or wire pressing terminal has an insulation case (generally made of plastic material), a metal component (or so-called electrical conductive component) and a leaf spring conductor (or so-called metal leaf spring). The metal component and the leaf spring conductor are enclosed in the insulation case to press and electrically connect with or release a conductive wire plugged in the terminal device so as to control the conductive wire to connect with a preset grounding rail. Such conventional terminal device is a technical means widely applied in various fields.

FIGS. 1 and 2 show a typical conventional rail terminal structure employing the above technical means. The conventional rail terminal structure includes a case body 3 and a grounding member 4 received in the case body 3. Wire plug-in sockets 31 for conductive wires to plug in and operation holes 32 are formed on the case body 3. A push member 321 is disposed in the operation hole 32. A tool can be extended into the operation hole 32 to operate the push member 321 so as to drive an internal conductive component 5 and help in connecting the conductive wire plugged in the wire plug-in socket 31 with the grounding member 4 or disconnecting the conductive wire from the grounding member 4. An elastic first section 41 and an elastic second section 42 respectively extend from two lateral sides of the grounding member 4. An elastic holding system is formed between the first and second sections 41, 42 for holding a preset grounding rail (not shown). An extension end section of the first section 41 is formed with a hook-like tail section 43. In addition, the case body 3 has a lower section 33 in a position corresponding to an outer lateral side of the first section 41. An inner side of the lower section 33 (in adjacency to one side of the first section 41) is formed with a cavity 35 for receiving the tail section 43. A hook-like foot section 34 outward extends from an outer side of the lower section 33 (distal from one side of the first section 41). An insertion socket 36 is formed between the foot section 34 and an outer surface of the lower section 33, which is open to outer side on one single side. A tool (such as a flat-blade screwdriver) can be extended into the insertion socket 36 to outward pull and extend the foot section 34 and the lower section 33, whereby the tail section 43 is driven via the cavity 35. Accordingly, the first and second sections 41, 42 of the grounding member 4 are expanded relative to each other so that the grounding member 4 can hold or release the grounding rail.

However, in the above structure, in consideration of the convenience in (one-way) demolding of the case body 3 in the manufacturing process, the insertion socket 36 of the lower section 33 is designed with an opening 361 open to outer side on one single side (for demolding). Therefore, the foot section 34 is simply connected with a lateral side of the outer surface of the lower section 33. In this case, the tool (the flat-blade screwdriver) is quite apt to slip out of the insertion socket 36 through the elastically expanded opening 361. This is a shortcoming in application. Moreover, the strength of the entire structure is poor. As a result, in practical application, when the tool (the flat-blade screwdriver) is extended into the insertion socket 36 to apply an operation force, the side of the periphery of the insertion socket 36 with the opening 361 has weaker structural strength and is easy to deform. Therefore, the opening 361 will be elastically expanded. Also, due to improper operation or after long-term used, the foot section 34 is often twisted, deformed or damaged.

In order to improve the above shortcomings, some manufacturers utilize 3D printing processing technique to produce the case body 3. By means of such processing means without any mold for molding the case body 3, a sink only with an upper opening is formed between the foot section 34 and the outer surface of the lower section 33 of the case body 3. Interconnection sections are connected between both the two lateral sides of the sink corresponding to the foot section 34 and the outer surface of the lower section 33. Therefore, the structural strength of the periphery of the sink is enhanced to avoid deformation and damage of the foot section 34 after forced. Also, when the tool (the flat-blade screwdriver) is extended into the sink to apply an operation force, the tool (the flat-blade screwdriver) is uneasy to slip out of the sink. This effectively improves the above shortcoming in application. However, the 3D printing processing means not only is relatively time-consuming and troublesome, but also is unbeneficial to mass production. In addition, the 3D printing processing cost is quite high as a whole. With respect to the rail terminal product, the 3D printing processing means fails to meet the principle of economic benefits in manufacturing process.

It is therefore tried by the applicant to provide the rail holding structure of the rail terminal of the present invention to improve the shortcomings of the conventional rail holding structure of the rail terminal.

SUMMARY OF THE INVENTION

It is therefore a primary object of the present invention to provide a rail holding structure of rail terminal, which includes a case body and a grounding member received in the case body. Two lateral sides of the grounding member are at least partially connected in the case body to form an elastic holding system for holding a preset grounding rail. The case body is formed with two lower sections respectively corresponding to two sides of the grounding member. A hook-like foot section outward extends from at least one of the two lower sections. A first connection side and a second connection side are respectively disposed on two lateral sides of the foot section. The first and second connection sides are connected with an outer sidewall of the lower section to form a socket with an open top side. The first and second connection sides serve as two lateral stoppers between the foot section and the outer sidewall. Therefore, when a tool (such as a flat-blade screwdriver) is extended into the socket to outward pull and extend the foot section, the first and second connection sides enhance the structural strength of the periphery of the socket to avoid twisting or deformation of the foot section. Also, the first and second connection sides prevent the tool from slipping out of the socket during the force application process.

It is a further object of the present invention to provide the above rail holding structure of rail terminal, in which the first connection side has at least one set of first connection section and first hollow section, which are alternately arranged. The second connection side has at least one second connection section corresponding to the first hollow section. The second connection section has a configuration and a size identical to the configuration and the size of the first hollow section. Accordingly, a projection area of the first connection side in a transverse direction of the socket and a projection area of the second connection side in the transverse direction of the socket are staggered, whereby the demolding operation of plastic injection in manufacturing process can be conveniently performed.

It is still a further object of the present invention to provide the above rail holding structure of rail terminal, in which the inner sides of the first and second connection sides are respectively formed with a first guide section and a second guide section in adjacency to the opening of the socket. The first guide section and the second guide section respectively are obliquely cut plane faces. The first and second guide sections serve to guide the tool to successfully slide from outer side into the socket.

The present invention can be best understood through the following description and accompanying drawings, wherein:

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a perspective view of a conventional rail terminal;

FIG. 2 is a front sectional view of the conventional rail terminal;

FIG. 3 is a front perspective exploded view of the rail terminal of the present invention:

FIG. 4 is a rear perspective view of the rail terminal of the present invention;

FIG. 5 is a perspective vertically sectional view of the rail terminal of the present invention, taken along a middle portion of the socket;

FIG. 6 is a front fully vertically sectional view of the rail terminal of the present invention; and

FIG. 7 is a sectional view according to FIG. 6 , showing the operation of the rail terminal of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

Please refer to FIGS. 3 to 7 . The rail holding structure of the rail terminal of the present invention mainly includes a case body 1 and a grounding member 2.

The surface of the case body 1 is formed with a recess 11 for receiving the grounding member 2 and multiple wire plug-in sockets 17 and operation holes 18. The wire plug-in sockets 17 are for conductive wires to plug in. A push member (not shown) is disposed in the operation hole 18. A tool B can be extended into the operation hole 18 to operate the push member so as to drive an internal conductive component (not shown) and help in connecting the conductive wire plugged in the wire plug-in socket 17 with the grounding member 2 or disconnecting the conductive wire from the grounding member 2. The case body 1 is respectively formed with two lower sections 12, 13 in adjacency to two lateral sides of the recess 11. A cavity 14 is at least formed in the lower section 12 (or the lower section 13). A hook-like foot section 15 outward extends from a lateral side of the lower section 12 (or the lower section 13). A first connection side 161 and a second connection side 162 are respectively disposed on two lateral sides of the foot section 15. The first and second connection sides 161, 162 are respectively connected with an outer sidewall 121 of the lower section 12. The first and second connection sides 161, 162 and the outer sidewall 121 and the foot section 15 define therebetween a socket 16 with an open top side. In addition, a projection area of the first connection side 161 in a transverse direction of the socket 16 and a projection area of the second connection side 162 in the transverse direction of the socket 16 are staggered. By means of such design, the demolding operation of plastic injection in manufacturing process can be conveniently performed.

In a preferred embodiment, the inner sides of the first and second connection sides 161, 162 are respectively formed with a first guide section 1614 and a second guide section 1623 in adjacency to the opening of the socket 16. (The first and second guide sections 1614, 1623 can be downward obliquely cut plane faces). The first and second guide sections 1614, 1623 serve to guide the tool B to successfully slide from outer side into the socket 16. In addition, the first connection side 161 has at least one set of first connection section 1611 and first hollow section 1612, which are alternately arranged. The second connection side 162 has at least one second connection section 1621 corresponding to the first hollow section 1612. The second connection section 1621 has a configuration and a size identical to the configuration and the size of the first hollow section 1612. Accordingly, the projection area of the first connection side 161 in the transverse direction of the socket 16 and the projection area of the second connection side 162 in the transverse direction of the socket 16 are staggered.

In application of the above structure, as necessary, the first connection side 161 can alternatively have multiple sets of first connection sections 1611 and first hollow sections 1612, which are alternately arranged. The second connection side 162 has multiple second connection sections 1621 respectively corresponding to the first hollow sections 1612. The second connection sections 1621 respectively have a configuration and a size identical to the configuration and the size of the first hollow sections 1612. Accordingly, the projection area of the first connection side 161 in the transverse direction of the socket 16 and the projection area of the second connection side 162 in the transverse direction of the socket 16 are staggered as a structural feature of the present invention.

An elastic first section 21 and an elastic second section 22 respectively extend from two lateral sides of the grounding member 2 to lateral sides of the two lower sections 12, 13. An elastic holding system is formed between the first and second sections 21, 22 for holding a preset grounding rail A. An extension end section of the first section 21 (or the second section 22) is formed with a hook-like tail section 23. The tail section 23 is inlaid in the cavity 14 of the lower section 12 (or the lower section 13), whereby the first section 21 (or the second section 22) can be elastically extended or retracted along with the move of the lower section 12 (or the lower section 13).

In practical application of the present invention, when the first and second sections 21, 22 of the grounding member 2 oppositely elastically hold the grounding rail A, the case body 1 is secured on the rail A with the grounding member 2. In addition, the conductive wires plugged in the respective wire plug-in sockets 17 are electrically connected with the grounding rail A. When the tool B (such as a flat-blade screwdriver) is extended into the socket 16, the first guide section 1614 or the second guide section 1623 serves to guide the tool B to successfully slide from outer side into the socket 16. Then, the tool B outward pulls and extends the foot section 15 to drive the lower section 12 (or the lower section 13). At this time, the first section 21 (or the second section 22) and the second section 22 (or the first section 21) are oppositely expanded, whereby the grounding member 2 can be detached from the grounding rail A.

In the above structure, the first and second connection sides 161, 162 serve as two lateral stoppers between the foot section 15 and the outer sidewall 121. Therefore, when the tool B (such as a flat-blade screwdriver) is extended into the socket 16 to outward pull and extend the foot section 15, the first and second connection sides 161, 162 enhance the structural strength of the periphery of the socket 16 to avoid twisting or deformation of the foot section 15. Also, the first and second connection sides 161, 162 prevent the tool B (such as a flat-blade screwdriver) from slipping out of the socket 16 during the force application process.

In conclusion, the rail holding structure of the rail terminal of the present invention can truly achieve the effects of enhancing the structural strength of the periphery of the socket and preventing the tool from slipping out of the socket in force application process. The rail holding structure of the rail terminal of the present invention is inventive and advanced.

The above embodiments are only used to illustrate the present invention, not intended to limit the scope thereof. Many modifications of the above embodiments can be made without departing from the spirit of the present invention. 

What is claimed is:
 1. A rail holding structure of rail terminal, comprising a case body and a grounding member, the case body being formed with an internal recess for receiving the grounding member, the rail holding structure being characterized in that the case body is formed with two lower sections corresponding to two outer lateral sides of the grounding member, a hook-like foot section outward extending from at least one of the two lower sections, at least one first connection side and at least one second connection side being respectively disposed on two lateral sides of the foot section, the first and second connection sides being connected with an outer sidewall of the lower section, whereby the foot section, the outer sidewall and the first and second connection sides together define therebetween a socket with an open top side.
 2. The rail holding structure of rail terminal as claimed in claim 1, wherein a projection area of the first connection side in a transverse direction of the socket and a projection area of the second connection side in the transverse direction of the socket are staggered.
 3. The rail holding structure of rail terminal as claimed in claim 2, wherein the first connection side has at least one set of first connection section and first hollow section, which are alternately arranged, the second connection side having at least one second connection section corresponding to the first hollow section, the second connection section having a configuration and a size identical to the configuration and the size of the first hollow section.
 4. The rail holding structure of rail terminal as claimed in claim 3, wherein the first connection side has multiple sets of first connection sections and first hollow sections, which are alternately arranged, the second connection side having multiple second connection sections respectively corresponding to the first hollow sections.
 5. The rail holding structure of rail terminal as claimed in claim 1, wherein inner sides of the first and second connection sides are respectively formed with a first guide section and a second guide section in adjacency to the opening of the socket, the first and second guide sections serving to guide a tool to successfully slide from outer side into the socket.
 6. The rail holding structure of rail terminal as claimed in claim 2, wherein inner sides of the first and second connection sides are respectively formed with a first guide section and a second guide section in adjacency to the opening of the socket, the first and second guide sections serving to guide a tool to successfully slide from outer side into the socket.
 7. The rail holding structure of rail terminal as claimed in claim 3, wherein inner sides of the first and second connection sides are respectively formed with a first guide section and a second guide section in adjacency to the opening of the socket, the first and second guide sections serving to guide a tool to successfully slide from outer side into the socket.
 8. The rail holding structure of rail terminal as claimed in claim 4, wherein inner sides of the first and second connection sides are respectively formed with a first guide section and a second guide section in adjacency to the opening of the socket, the first and second guide sections serving to guide a tool to successfully slide from outer side into the socket.
 9. The rail holding structure of rail terminal as claimed in claim 5, wherein the first and second guide sections respectively are obliquely cut plane faces.
 10. The rail holding structure of rail terminal as claimed in claim 6, wherein the first and second guide sections respectively are obliquely cut plane faces.
 11. The rail holding structure of rail terminal as claimed in claim 7, wherein the first and second guide sections respectively are obliquely cut plane faces.
 12. The rail holding structure of rail terminal as claimed in claim 8, wherein the first and second guide sections respectively are obliquely cut plane faces.
 13. The rail holding structure of rail terminal as claimed in claim 1, wherein a cavity is at least formed in the lower section on one side of the case body with the foot section, an elastic first section and an elastic second section respectively extending from two lateral sides of the grounding member to lateral sides of the two lower sections, an extension end section of at least one of the first section and the second section being formed with a hook-like tail section, the tail section being inlaid in the cavity, whereby the first section and the second section of the grounding member can be elastically extended or retracted along with the move of the lower section.
 14. The rail holding structure of rail terminal as claimed in claim 2, wherein a cavity is at least formed in the lower section on one side of the case body with the foot section, an elastic first section and an elastic second section respectively extending from two lateral sides of the grounding member to lateral sides of the two lower sections, an extension end section of at least one of the first section and the second section being formed with a hook-like tail section, the tail section being inlaid in the cavity, whereby the first section and the second section of the grounding member can be elastically extended or retracted along with the move of the lower section.
 15. The rail holding structure of rail terminal as claimed in claim 3, wherein a cavity is at least formed in the lower section on one side of the case body with the foot section, an elastic first section and an elastic second section respectively extending from two lateral sides of the grounding member to lateral sides of the two lower sections, an extension end section of at least one of the first section and the second section being formed with a hook-like tail section, the tail section being inlaid in the cavity, whereby the first section and the second section of the grounding member can be elastically extended or retracted along with the move of the lower section.
 16. The rail holding structure of rail terminal as claimed in claim 4, wherein a cavity is at least formed in the lower section on one side of the case body with the foot section, an elastic first section and an elastic second section respectively extending from two lateral sides of the grounding member to lateral sides of the two lower sections, an extension end section of at least one of the first section and the second section being formed with a hook-like tail section, the tail section being inlaid in the cavity, whereby the first section and the second section of the grounding member can be elastically extended or retracted along with the move of the lower section.
 17. The rail holding structure of rail terminal as claimed in claim 5, wherein a cavity is at least formed in the lower section on one side of the case body with the foot section, an elastic first section and an elastic second section respectively extending from two lateral sides of the grounding member to lateral sides of the two lower sections, an extension end section of at least one of the first section and the second section being formed with a hook-like tail section, the tail section being inlaid in the cavity, whereby the first section and the second section of the grounding member can be elastically extended or retracted along with the move of the lower section.
 18. The rail holding structure of rail terminal as claimed in claim 6, wherein a cavity is at least formed in the lower section on one side of the case body with the foot section, an elastic first section and an elastic second section respectively extending from two lateral sides of the grounding member to lateral sides of the two lower sections, an extension end section of at least one of the first section and the second section being formed with a hook-like tail section, the tail section being inlaid in the cavity, whereby the first section and the second section of the grounding member can be elastically extended or retracted along with the move of the lower section.
 19. The rail holding structure of rail terminal as claimed in claim 7, wherein a cavity is at least formed in the lower section on one side of the case body with the foot section, an elastic first section and an elastic second section respectively extending from two lateral sides of the grounding member to lateral sides of the two lower sections, an extension end section of at least one of the first section and the second section being formed with a hook-like tail section, the tail section being inlaid in the cavity, whereby the first section and the second section of the grounding member can be elastically extended or retracted along with the move of the lower section.
 20. The rail holding structure of rail terminal as claimed in claim 8, wherein a cavity is at least formed in the lower section on one side of the case body with the foot section, an elastic first section and an elastic second section respectively extending from two lateral sides of the grounding member to lateral sides of the two lower sections, an extension end section of at least one of the first section and the second section being formed with a hook-like tail section, the tail section being inlaid in the cavity, whereby the first section and the second section of the grounding member can be elastically extended or retracted along with the move of the lower section.
 21. The rail holding structure of rail terminal as claimed in claim 9, wherein a cavity is at least formed in the lower section on one side of the case body with the foot section, an elastic first section and an elastic second section respectively extending from two lateral sides of the grounding member to lateral sides of the two lower sections, an extension end section of at least one of the first section and the second section being formed with a hook-like tail section, the tail section being inlaid in the cavity, whereby the first section and the second section of the grounding member can be elastically extended or retracted along with the move of the lower section.
 22. The rail holding structure of rail terminal as claimed in claim 10, wherein a cavity is at least formed in the lower section on one side of the case body with the foot section, an elastic first section and an elastic second section respectively extending from two lateral sides of the grounding member to lateral sides of the two lower sections, an extension end section of at least one of the first section and the second section being formed with a hook-like tail section, the tail section being inlaid in the cavity, whereby the first section and the second section of the grounding member can be elastically extended or retracted along with the move of the lower section.
 23. The rail holding structure of rail terminal as claimed in claim 11, wherein a cavity is at least formed in the lower section on one side of the case body with the foot section, an elastic first section and an elastic second section respectively extending from two lateral sides of the grounding member to lateral sides of the two lower sections, an extension end section of at least one of the first section and the second section being formed with a hook-like tail section, the tail section being inlaid in the cavity, whereby the first section and the second section of the grounding member can be elastically extended or retracted along with the move of the lower section.
 24. The rail holding structure of rail terminal as claimed in claim 12, wherein a cavity is at least formed in the lower section on one side of the case body with the foot section, an elastic first section and an elastic second section respectively extending from two lateral sides of the grounding member to lateral sides of the two lower sections, an extension end section of at least one of the first section and the second section being formed with a hook-like tail section, the tail section being inlaid in the cavity, whereby the first section and the second section of the grounding member can be elastically extended or retracted along with the move of the lower section. 